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Planets and stars generally rotate in the same plane (ecliptic plane for planets and galactic plane for stars) because they formed from rotating disks of gas and dust. The conservation of angular momentum causes them to continue rotating in that plane. Any variations in their orbit or rotation can be attributed to gravitational interactions with other objects or external forces acting on them. Although planets and stars rotate in these planes, there can be some slight variations due to factors like gravitational interactions with other objects, tidal forces, and galactic dynamics. However, the overall rotation in the same plane is a result of their formation processes.
All the planets revolve around the Sun in the same direction. As seen from a position arbitrarily "above" the plane of the planetary orbits (i.e. above Earth's North Pole), the planets orbit counter-clockwise.
The collapsing gas and dust cloud began to spin and form a disk.
Jupiter consists of hydrogen and helium (primarily) like the Sun. It has a host of satellites in orbit around its equatorial plane. The sun has natural satellites (planets) that orbit its equatorial plane.
A plane including the direction of light propagation and the direction of electric field is called the "plane of vibration". The "plane of polarization" is a confinement of the electric/magnetic field vector to a given plane along the direction of propagation.
From the perspective of looking downward at the plane of the ecliptic where North is up, the planets revolve counterclockwise.
Inference.
It is called the solar system plane.
Because the sun is responsible for everything in the Solar system the planets lie on the suns equatorial line and still spin like they did before the planets formed.All the planets go around the sun the same way and lie on a relatively flat plane because of gravity. This is just a theory.
If an object revolves around the sun on the same plane as the planets, it is lying on an ecliptic.
Planets and stars generally rotate in the same plane (ecliptic plane for planets and galactic plane for stars) because they formed from rotating disks of gas and dust. The conservation of angular momentum causes them to continue rotating in that plane. Any variations in their orbit or rotation can be attributed to gravitational interactions with other objects or external forces acting on them. Although planets and stars rotate in these planes, there can be some slight variations due to factors like gravitational interactions with other objects, tidal forces, and galactic dynamics. However, the overall rotation in the same plane is a result of their formation processes.
a screw is a rotating inclined plane. like an inclined plane wraped around a cylinder.
The planets orbit in the same plane because there is no force to take them out of the plane. The plane is the plane of the average rotations of all the elements of the cloud of gases that made up the solar system.
1). They orbit in the same around the sun, and as the sun. 2). Orbits of planets and their larger moons are in just about the same plane. 3). Almost all planets and moons rotate on their axes in the same direction as the planets orbit the sun.
The theory I was taught during the last ice age was that the solar system condensed out of a single gas cloud. Each planet was part of that cloud and as the cloud was spinning in that direction all the planetary orbits ended up that way. As to on the same plane it comes down to gravity shaping the gas cloud into a disk and so on.
So far, all the planets discovered orbiting THIS star orbit in the same direction; counter-clockwise as seen from high above the north pole. We expect that all planets in a particular solar system are likely to orbit in the same direction.
It doesn't change direction; there is no force on it (perpendicular to the plane in which it swings) that would cause it to do so. It APPEARS to change direction relative to the Earth, but the Earth is a rotating frame of reference. If you watch the pendulum from a frame of reference above the Earth and the pendulum, you would see that it swings back and forth in its plane of oscillation. See the famous movie FRAMES of REFERENCE, with Professors Hume and Ivey, made in 1959, to see an excellent demonstration of this. Using a rotating frame, they show that a camera in the rotating frame appears to show the pendulum changing direction. Using a camera above the rotating frame, fixed to the floor, they show the pendulum never changes direction; only the frame rotates. . It swings back and forth in the same plane. There is no force on it to make it change